Method and apparatus for making tampons



Sept. 7, 1954 w. H. BURGER ETAL METHOD AND APPARATUS FOR MAKING TAMPONS Filed April 16, 1948 14 Sheets-Sheet 1 nve 71s will Flam HI. anger fiBwarcZAC'ol i705 and ffowqJ-cl M Hui/L fiwq 4 wimuw Sept. 7, 1954 w. H. BURGER EI'AL I 2,688,153

I METHOD AND APPARATUS FOR MAKING TAMPONS Filed April 16; 1948 14 Sheets-Sheet 2 William Burger ffowarczflcollirw and .HbwarcZ M Haifa P 1954 w. H. BURGER E E'AL 2,688,163

METHOD AND APPARATUS F OR MAKING TAMPONS Filed April 16, 1948 14 Sheets-Sheet 3 fnve 77.750 rs;

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METHOD AND APPARATUS FOR MAKING .TAMPONS Filed April 16, 1948 14 Sheets-Sheet 7 'Sept. 7; 1954 w. H. BURGER ETAL I METHOD AND APPARATUS FOR MAKING TAMPONS 14 Sheet s-Sheet 9 Filed April 16, 1948 Sept. 7., 1954 w. H. BURGER ETAL 2,538,163

METHOD AND APPARATUS FOR MAKING TAMPONS Filed April 16; 1948 14 Sheets- -Sheet l0 @W QM. RQ sww NMN Mr Hbwarci M Hui/ 0 $3? W, MW @46 Sept. 7, 1954' w. H. BURGERETAL 2,683,163

' METHOD AND APPARATUS FOR MAKING 'TAMPONS Filed A ril 16, 1948 14 Sheets-Sheet 11 [fiver-(l ars: ZZ/zllliam H .Bzugger jYawarcZAC'oZZins' and Howard M Hui/,

Sept. 7,1954.

w. H. BURGER EI'AL I METHOD AND APPARATUS FOR MAKING 'II'AMIPQNS Filed April 16. 1948 I 14 Sheets-Sheet l2 w A 5 A5 m A $3 5% "Sept. 7, 1954 w. H. BURGER ETAL 8 METHOD AND APPARATU FOR MAKING TAMPONS 13 Shee'ts-Sheet 1s wazL'C-Lm jifi er" 'mwczifalACollim and;

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METHOD AND- APPARATUS FOR MAKING TAMPONS Filed April 16; l948 14 sh t J-shee; '14

Patented Sept. 7, 1954 METHOD AND APPARATUS FOR MAKING TAMPONS William H. Burger and Howard A. Collins, Neenah, and Howard M. Ruth, Appleton, Wis., assignors to International Cellucotton Products Company, Chicago, Ill., a corporation of Delaware Application April 16, 1948, Serial No. 21,404

. 31 Claims. 1

This invention relates to a method and apparatus for producing tampons, more specifically catamenial tampons, and this application is concerned with that portion of a tampon making method and apparatus whereby an absorbent body is enclosed in a pervious jacket to form a tampon body which is adapted to be compressed to form the finished tampon.

The main objects of the invention are to provide a method and apparatus whereby a web or hat of absorbent material, such as cotton, wood cellulose or other absorbent material, may automatically be separated into tampon body units and automatically enveloped in a pervious jacket which will confine the absorbent material; to provide mechanism of the character indicated which will operate continuously at a good rate of tampon body production; to provide such mechanism which will produce substantially uniform tampon bodies suitably enclosed in pervious jackets; to provide mechanism for the purpose Fig. 5 is a side elevation of the left hand end of the apparatus as seen in Fig. 1;

Fig. 6 is a section on the line 6-6 of Fig. 4;

Fig. 7 is a section on the line l--! of Fig. 6;

Fig. 8 is a section on the line 8-8 of Fig. 4;

Fig. 9 is a perspective illustrating a step in the method of producing the tampon bodies;

Fig. 10 is a section on the line l0--lll of Fig. 4;

Fig. 11 is a section on the line H-I I of Fig. 8;

Fig. 12 is a fragmentary plan corresponding to a portion of Fig. 3 but showing the parts on an enlarged scale, certain parts being broken away and others shown in section to more clearly illustrate certain details;

Fig. 13 is a section on the line l3l3 of Fig. 12;

Fig. 14 is a section on the line 14-44 of Figs. 2 and 5;

Figs. 15 and 16 are elevations respectively on the planes represented by the lines I5--l5 and l6-l6 of Fig. 5;

2 Fig. 17 is a section on the line ll-ll of Fig. 15; Fig. 18 is a fragmentary perspective illustrating a condition of the tampon body'structure during its progress through the mechanism;

Fig. 19 is a section illustrating certain details of the tampon body structure immediately preceding its final separation into a single tampon body unit, and delivery as such from the apparatus;

Figs. 20 and 21 are plan sections corresponding to a portion of Fig. 12 but showing successive positions of the parts;

Fig. 22 is a fragmentary side elevation as represented by the line 2222 of Fig. 12;

Figs. 23, 24 and 25 are fragmentary views showing portions of the mechanism apeparing in Fig. 22 but showing successive positions of the parts, and

Fig. 26 is a side elevation of a tampon body produced by the apparatus, a part of Fig. 26 being in section to illustrate a detail of construction.

According to the present invention, a tampon body adapted'to be compressed to final tampon form and size is formed by first cutting from a web of cotton or other absorbent material, a body unit of absorbent material which is thereafter enrobed in a pervious jacket of knitted material which is knitted on the absorbent body. Successive tampon body units are delivered to knitting mechanism and they emerge from the knitting mechanism enclosed within a tubular casing of knitted textile material. The absorbent bodies are, however, spaced endwise from each other and they are connected together by means of tubes of knitted material formed intermediate the successive absorbent bodies. Such tubes of knitted material are severed intermediate their ends to form separate tampon body units each comprising an absorbent body enclosed in a pervious tubular jacket.

For example, as presented in Fig. 9, a web I of absorbent cotton is propelled endwise in the direction indicated by the arrow 2 and end portions of the web, such as the portion represented at 3, are successively separated from the web by suitable means typified in this instance by upper and lower knives 4 and 5 respectively which cooperate to sever the strip of absorbent wadding. The separated absorbent body 3 is next propelled endwise into the throat of a knitting machine which applies a jacket 6 (see Figs. 18 and 19) of knitted material to the body 3. Suecessive bodies 3 are fed to the knitting mechanism in spaced relation, but the knitting machine is the frame II.

3 kept in operation so that intermediate the successive absorbent bodies, tubes I of knitted material are produced to integrally connect the successive absorbent bodies in linked, sausage-like form. A small amount of adhesive 8 is applied to the tube 1 of knitted material nearer to the end of one body than to the other end to thereby bond together threads which form the tube I.

After the adhesive 8 has dried or set, the tube "I is cut transversely at points, such as indicated at 9a and 9b in Fig 19. These cuts are made through the adhesively bonded areas so that the raw ends of jacket material resulting from the cutting at 9a and 9?) will not unravel. Incident to the operation of the knitting machine, the knitted jacket 6 automatically closes itself over the opposite ends of the absorbent body 3 as indicated at Illa and [b in Figs. 18 and 19, to prevent relative movement between the absorbent body and its surrounding jacket of knitted material. Such relative movement is, of course, in any event resisted by the frictional hold of the jacket 6 on the sides of the absorbent body 3. A tampon body, such as represented in Fig. 19 between the cutting positions 9a and 9b, is a complete tampon body unit which is subsequently subjected to certain compressing operations to reduce the body to a practical catamenial tampon size. The method and apparatus for compressing the tampon forms no part of the present invention and are therefore not herein disclosed.

The apparatus herein shown for producing compressible tampon bodies embodies a frame structure, the various parts of which are designated II, and said frame structure has secured to it a spindle I2 for supporting a roll I3 of absorbent webbing I. In this instance, the spindle I2 is carried by the free end of a link I4 which is pivoted at its upper end as shown at I5, to an upstanding part of the frame structure. The web I of absorbent material is drawn from the roll I3 step by step and braking means is provided for preventing excessive unwinding of the supply roll I3 while at the same time avoiding interference with required unwinding thereof.

Such braking means comprises a brake lever Iii pivoted intermediate its ends as represented at ll, on a bracket or suitable part carried by One end of said brake lever I8 is weighted as indicated at I8, so as to cause its upper portion I9 to frictionally bear against the periphery of the supply roll I3. This weighted braking arrangement provides approximately uniform braking pressure on the supply roll throughout the gradual reduction in circumfer- 6 ence of the roll. At least said braking pressure is sufficiently uniform for the purpose of the apparatus.

The web I may be of cotton or of wood cellulose or other absorbent material. For the purpose of explanation it may be assumed to be cotton. The absorbent material, especially when of cotton, tends to become compacted in the supply rolls whereas for purposes of tampon body production it is desirous that the material be quite fluffy; that is to say, expanded to a suitable extent. During the travel of the web I from the supply roll to mechanism for cutting end por-' tions from the web, the web is subjected to a fluifing operation.

The flumng mechanism consists of an oscillating plate or fluifer (see Figs. 2, 6 and '7) which is hinged at one end as indicated at 2!, to an element of the frame II. At its free end, the fluffer 29 is connected by a link 22 to a crank 4 pin 23 which, when actuated, serves to rock or oscillate the flufier 20.

The web I is guided along a channel formed between side guides 24, 24 (see also Fig. 4) over a plate element 25. The side guides 24 and the plate element 25 may conveniently be formed of smooth surfaced material, such as glass or plastic material, for example, methyl-methacrylate resin, which is transparent and permits visual inspection of the material during its course of travel. The supporting plate 25 is provided with an opening 26 which is spanned lengthwise by a plurality of smooth straight rods 2'! which have their opposite ends anchored in the table element 25, as best shown in Fig. 6. A part of the guide channel for the web I is covered by a suitable,

smooth surfaced cover plate 28, which is also preferably of transparent material, such as glass or plastic material of the character indicated, to permit visual inspection of the absorbent material web. Said cover plate 28 overlies the opening 26 and extends beyond both ends of said opening as will be apparent from an inspection of Figs. 2, 4 and 6. The cover may be hinged to one of the side guides 24, as shown in Fig. '7.

As the web I is propelled step by step over the opening 26, the fluifer 20 is oscillated up and down so that it more or less pumps air into the channel through which the web I travels, such air being of course forced into the web to thereby more or less blow it up; that is to say, to effect fiufling of the web. The rods 21 prevent the web from being sucked down through the opening 26 while permitting a free flow of air into the channel when the fiuffer 20 moves upwardly or toward the channel. Said fluffer is rocked within a chamber formed by side members, such as represented at 29 and an end member 30 together with the frame element on which the fiuifer is hinged.

The crank pin 23 which actuates the fluffer is carried by a disc 3I which is mounted on one end of a shaft 32 journaled in suitable frame supported bearings, as best shown in Fig. 6. The shaft 32 is driven continuously and for that purpose it is provided with a sprocket 33 (see Figs. 1 and 2) which is driven by means of a chain 34, the latter being driven by means of a drive sprocket 35 (see Fig. 1) on the output shaft 36a of a variable speed Reeves drive 31. The Reeves drive is driven by an electric motor 38 and a suitable chain drive 39 which connects the motor to the variable speed unit. The chain 34 is guided in part by an idler sprocket-.40 suitably positioned and mounted to cause the chain 34 to clear portions of the frame II. The connecting rod or link 22 is connected at its opposite ends to said crank pin and to the fluffer 20 by means of suitable ball and socket or Universal joints, which permit shifting of the angular position of the link relative to the crank pin and fiuffer incident to the different positions of these parts.

The absorbent web I is propelled step by step by means of a pair of endless belts H and 42, which have adjacent reaches disposed in substantially .parallel relation so as to be adapted to receive between them the said web I (see Figs. 2,4 and 8). The conveyor belt M is guided 'by pulleys carried by shafts 43 and -44 respectively which are suitably journaled in side plate elements of the frame structure I I and the belt 42 is similarly supported by means of pulleys carried by the shafts 45 and 46 which are also journaled in the side plates of the frame. These conveyors 4| and 42 are interconnected for simultaneous intermittent feed movement in such a manner that the adjacent reaches of the belt travel in the same direction. For this purpose an endless chain 4! is supported by a sprocket 48 (Fig. 4) on the shaft 44 of the upper belt, a sprocket 49 on the shaft 46 of the lower belt, an idler sprocket 58 on the shaft which is supported in the side members of the frame H, and a sprocket 52 which is mounted on one end of a shaft 53 which is also mounted in said frame side plates.

The shaft 58 is intermittently rotated in the proper direction to intermittently advance said chain 41 and the belts 4| and 42, by means of a one-way clutch structure 54.

The one-way clutch 54 (see Figs. 8 and 11) may be of any suitable kind, many of which are well known, and wherefor no details of the clutch structure are shown. However, it includes a member having an ear 55 which is connected by means of an adjustable link 56 to a pin 51 which is adjustable along the length of a pivoted lever 58. The lever 58 is pivoted as indicated at 59 in a bracket carried by one of the side plates of the frame structure, and the said lever is adapted to be rocked about the axis of said pivot 59 by means of a rotating cam 68. The cam 60 is carried by a shaft 6| which is suitably supported for rotation and said shaft is driven by means of a chain drive 62 which connects the shaft 6| to a driven countershaft 68 which is rotatably mounted in the frame structure (see Figs. 2, 8 and 11).

The cam 80 acts against a roller 60a carried by a portion of the pivoted arm 58 to effect the required rocking of said arm. Spring means 58a may be provided for normally urging the arm 58 to rock in one direction so as to maintain its roller 60a in operative engagement with the cam 60. The clutch structure 54 is so arranged that clockwise movement imparted to the clutch member 55 (as viewed in Fig. 8) will effect clockwise travel of the chain 41 and thereby simultaneous movement of the belts 4| and 42 in opposite directions as aforesaid. On the return movement of the clutch element 55, the chain 4'! will not be driven so that the belts 4| and 42 remain stationary during such return movement of the clutch member. The extent of movement imparted to the belts 4| and 42 may be regulated by adjusting the position of the pin 51 on the lever 58 (see Fig. 11). Such adjustment may be effected by turning the screw 65 which is suitably journaled in the arm 58, said screw serving to adjust the block 66 which carries the pin 51 along the arm 58.

A suitably formed knob 65a is secured to an accessible outer end of the screw 65 to facilitate making of the indicated adjustment of the extent of feed movement of the belts 4| and 42.

It will be seen that the belts 4| and 42 are capable of being driven selected distances to successively or intermittently advance the web uniform predetermined distances each time that the web is advanced.

The upper and lower cutting knives 4 and 5 respectively, previously mentioned in connection with Fig. 9, are embodied in the machine for cutting off advanced end portions of the web I which are supported by a suitable plate element 69. Intermediate the lower cutting knife 5 and the delivery end of the lower feed belt 42, the web I may be supported by a suitable plate element 10.

The lower knife 5 is a stationary blade which is fixedly mounted on the plane structure 6. through the agency of a mounting block II. The upper knife 4 is a vertically reciprooable knife, this knife being mounted in a carrier plate 12 which is guided for vertical reciprocation in ways formed between the upper portion of a vertical frame element Ma and guide strips l3, 13 which are secured to said frame element through the agency of spacing blocks as best shown in Fig. 4.

The member 12 has an opening 14 therein under the knife 4 and through which the web passes. The lower portion of the member 12 is connected by means of a link 15 to a crank pin 76 carried by a cam disc 11 which is secured to the driven shaft 6|. The link or connecting rod [5 is adjustable in respect of its length so that the extreme up and down positions of the knife 4 may be adjusted to secure the best operating performance. It will be observed that the cutting knife 4 is actuated in timed relation to the actuation of the web feed belts by being driven from the feed belt drive shaft 6|, the cutting knife being caused to cut the web while the web and. its feed belts remain stationary.

The tampon body unit of webbing severed from the web is fed horizontally from the supporting plate element 69 to a conveyor belt 18 as an incident to the advancement of the web The conveyor belt 18 travels transversely of the direction of feed of the webbing and lengthwise of the tampon body 3 which is cut from the web. Said conveyor belt is supported on an elongated transversely extending platform 19 and is guided over suitably journaled supporting rollers 88 and 8| adjacent the ends of said platform. The belt travels counterclockwise as viewed in Figs. 1 and 10, and from the roller 80 it progresses around rollers 83, 84 and 85 to the said roller 8|. The rollers 83, 84 and 85 are, of course, suitably journaled on the frame structure or in brackets carried thereby and one of said, rollers, for example the roller 83, may be adjustably mounted so as to facilitate adjustment of the tightness of the belt 18.

The belt 18 is continuously driven by a chain drive comprising the chain 88 which transmits power from a sprocket 81 on the continuously driven shaft 6| to a sprocket mounted on the shaft of the roller 84 against which the belt is held with sufficient force to cause the belt to be driven incident to the rotation of said roller 84. The chain 86 also engages sprockets carried by the shafts 88 and 89 which respectively support conveyor belts 9| and 90 which cooperate with the belt l8 to feed the tampon bodies in an endwise direction.

The belt 90 is supported by pulleys 92 and 93 which are respectively mounted on the shafts 89 and 94 (see Figs. 1, 4 and 10). The shaft 89 is fixedly or rotatively mounted in frame side elements III), III) and the shaft 94 for the pulley 93 is mounted in the adjacent ends of side arms 95 which have their forward ends pivotally mounted on the shaft 89. A belt tightening pulley 96 is also mounted in said arms 95, preferably in an adjustable manner so as to permit adjustment of the tautness of the belt 90.

The belt 98 is capable of being rocked vertically about the axis of its shaft 89 so as to open and close its receiving end portion relative to the receiving portion of the underlying belt 18. This rocking movement of the belt 98 is provided so that during the edgewise feed of the last out tampon body from the support 69 to the belt 18, the belt 90 may be in an elevated position in which it affords no resistance to the delivery of the tampon body to the belt 13.

Rocking movement of the belt 99 relative to the belt 18 is effected in properly timed relation to the feed of the tampon bodies to the belt 18 by means of a cam 91 which is formed on the periphery of the crank pin disc 11. Said cam 91 acts against a roller 98 carried by one end of an arm 99 which is suitably pivotally mounted intermediate .its ends as indicated at I00. The ether end of said arm 99 is connected by means of a link IBI to a projecting end portion of the shaft 94. It will be apparent that rocking movement of the arm 99 effected by the cam 91 will be transmitted to the link IN to the free end of the conveyor carrying arms 95 so that periodically the free or receiving end portion of the conveyor will be elevated and then lowered in respect to the conveyor 18. The cam is, of course, so timed that the conveyor 99 will have its receiving end portion in an elevated position relative to the conveyor 18 during the movement of the tampon body 3 from the support 68 to the belt 18.

The conveyor 9I is supported by a pulley I02 on the shaft 88 and a pulley I53 on a shaft I04. The shafts B8 and I04 are suitably mounted in the frame members IIb and a belt tightening roller I95 associated with the belt 91 and suitably mounted in the frame members III) is provided. The belt 9] is continuously driven but maintains a fixed relation to the operative reach of the belt 18 so that the lower reach of the belt 9I and the adjacent reach of the belt 18 are operative to feed the successive tampon bodies at a substantially uniform rate of speed into the hollow I66 of a knitted textile tube 6 which is being formed in the head I01 of knitting mechanism I08. The tampon bodies will be gripped by the threads of the tube as the latter is formed so that said bodies will thereupon be propelled in unison with the knitted tube. The belts 18, 9E! and SI are, of course, driven at the same rate of speed.

The knitting or braiding machine I98, which may be of more or less conventional design, include supports for a pair of spools I09, I08 of the desired yarn or thread which is delivered to said knittng head I01 (or to a braiding head) which operates to form the tubular jacket 6 around the absorbent bodies 3 and the empty tubing 1 which connects the successive bodies (see Fig. 18). The spools I99 rotate about the horizontal axis of the knitting machine and the jacketed absorbent bodies emerge from the knitting apparatus to be received between the adjacent reach of upper and lower continuously driven conveyor belts III] and III respectively (see Fig. l).

The knitting apparatus is driven continuously by means of a driving chain II2 (see Figs. 1, 2, and 4) which is driven by the output sprocket I I3 carried by an output shaft 36b of the variable speed Reeves drive 31, and said chain engages a sprocket II4 carried by the drive shaft of the knitting apparatus.

The output shaft of the variable speed drive 31 which carries the sprocket H3 is coupled to the input shaft I I5 of a speed reducing unit II 6 which has an output shaft provided with a sprocket II! for driving a chain I I5 which drives the countershaft 63 through the agency of a suitable sprocket I19.

The belts H9 and I are so placed that their cooperating reaches grip the jacket enclosed and jacket connected tampons between them so as to maintain the required tension on the knit tubing to pull it out of the knitting machine. These belts are geared together at their delivery ends by means of inter-meshing gears I29 and I21 and they are driven by means of a chain I22 which engages a sprocket carried by the shaft I23 of the upper belt III) and a sprocket I24 carried by the output shaft I25 of a suitable variable speed drive I26. The variable speed drive unit I26 is driven by means of a chain I21 which engages a sprocket carried by the driven countershaft 63 and a sprocket carried by the input shaft of said drive I26 (see Figs. 1 and 3). The variable speed drive I26 provides an effective control of the tension applied to the knitted tubing by the cooperating drive belts I III and II I.

The tension belts I I0 and III deliver the connected string of tampons to a transfer plate or table I28 which supports the bodies in position for delivery to receiving clips or brackets I29, I29 carried on the periphery of a horizontally rotatable drum I39. As best shown in Figs. 12 and 13, the drum consists of upper and lower plates I3I and I32 which are peripherally united by a series of tie plates I33 which are bent to conform to the flats of the peripheries of said upper and lower plates I3I and I32. The drum has a central or hub member I34 which also serves to unite the upper and lower plates and to provide a socket I35 for receiving the upper end portion I36 of an axially vertical rotatable shaft I31.

The shaft I31 is journaled for rotation in a bearing I38 formed in a manifold I39 and in a bearing I40 formed in a barrel-shaped housing member I. The member MI is supported from a suitable frame member as shown in Fig. 5, through the agency of a supporting base I42. The manifold I39, the housing HI and the base I42 are suitably bolted together and the base is in turn bolted to the frame on which it is mounted.

A collar or flange I43 formed on the shaft I31 engages a thrust bearing I44 seated on the upper end of the bearing sleeve I38 to support the weight of the shaft and parts carried by its upper end. A valve plate I45 is seated on the upper end of the manifold I39 and on the upper end of the thrust bearing I44 so as to cooperate with the flange I43 and thrust bearing to support the rotary drum I39.

Continuous rotation is imparted to the rotary drum I 39 by means of a worm and worm wheel drive consisting of the worm wheel I45 which is secured to the shaft I31, and a worm I41 which meshes with the worm wheel I46 and is secured to a shaft I48 so as to rotate therewith. The shaft I43 is journaled in suitable bearings carried by the frame structure (see Figs. 3 and 5) and said shaft is driven by means of a chain I49 which meshes with a suitable sprocket I50 carried by the shaft I48 and a suitable sprocket I5I which is secured to or formed integral with the pinion I52 of a differential gear drive structure, indicated at I53. Said differential drive I53 includes another bevel gear I54 which is secured to the continuously driven countershaft 63. The gears I52 and I54 mesh with an opposed pair of sun gears I55, I55. The sun gears I55 are journaled for rotation on shafts I56, 156, (see Fig. 14) which project from a central member I56a, the latter being journaled on the shaft 63 intermediate the gears I52 and I54. The shafts I56 carry a worm wheel I51. The worm wheel I51 being normally stationary, it will be seen that rotation of the shaft 63 and its pinion gear I54 will be I 9 transmitted through the sun gears I55 to the pinion I52 and said sprocket II so as to thereby drive the shaft I46 and the turret I36.

The worm wheel I51 is normally held stationary by reason of its meshing engagement with a worm gear I58, the latter being carried by a shaft I59 which has a bevel gear I66 meshing with a similar bevel gear I6I on the shaft I62. The shaft I62 is journaled in suitable bearings provided in the frame structure and extends to an accessible place outside of the machine where it is provided with a hand wheel I63 to facilitate manual turning of the shaft and of the worm I58 and worm wheel I51. It will be seen that by manually rotating the worm wheel I51 and the gears I55 about the shaft 63, rotation of the drive sprocket I 5| will be advanced or retarded in accordance with the direction in which the worm wheel I51 is turned. Such advancing and retarding of the drive sprocket I5I of course, reflected in corresponding advancement or retarding of the turret I36. This manual adjustment facilitates adjustment of the position of the rotating turret I 36 so as to position its U-shaped clips I26 in proper position for receiving the jacketed tampon bodies from the belts H6 and III and the table I28.

By reference to Figs. 3 and 5, it will be seen that the arrangement is such that the successive tampon bodies are each received by one of the holders I29 while the string of connected tampons continues its endwise travel. The drive for the rotating turret I36 is, of course, suitably timed so that a holder I29 will be presented for each jacketed tampon body issuing from the delivery'belts III] and III.

The cement or adhesive band 8 (Figs. 18 and 19) is applied to the reduced diameter tube 1 of knitted material which extends between the receiving holder I 26 and the next advanced holder I26. The adhesive applying mechanism is indicated in its entirety at I64 (Figs. 1, 3 and 5) and it is shown in greater detail in Figs. and 1'1. It consists of upper and lower rotating arms I65 and I66 respectively, these arms being respectively carried by upper and lower rotating horizontal shafts I61 and I68 respectively. These shafts I61 and IE6 are journaled in suitable bearings carried by an upstanding frame part I I progether by means of inter-meshing gears I66 and I16 so that they rotate in unison. The shaft I66 is driven by means of a chain I1I (Figs. 1 and 5) which engages a sprocket on the shaft I68, a sprocket on an extension of the shaft I48 and an idler or guide sprocket I46a suitably journalled in said upstanding frame part. The said arms I65 and I66 are thereby driven in a pre determined timed relation to the drive of the turret I36.

The required adhesive may be applied by either of these arms I65 or I66 while the other co-operates to position the tube material in adhesive receiving relation to the applicator, or if preferred or advantageous, both arms could be made to apply adhesive. In this instance adhesive is applied by the lower arm I66 while the tubing material is positioned by the upper arm. To that end, the lower arm I66 is bored longitudinally as indicated at I12 to communicate with a bore I13 in its supporting shaft 166. Said bore I13 communicates through suitable valved piping I1 6 with an adhesive supply tank I15. The outer ends of the bore I12 in the arm I66 are provided with check valves which include ball members I16, I16 adapted to be seated on shoulders I11 formed in arm ends or tips I18 which are screwed on the ends of the arm I 66 as best shown in Fig. 17. Springs I19 housed in enlargements of the outer ends of the bores I12 serve to yieldingly hold the valve balls I16 seated on the valve seats I11 so as to normally prevent adhesive from being discharged out of the ends of the rotating arm I66.

As shown in Fig. 17, the arm tips I18 are provided with recesses I86 into which a portion of the knitted tube 1 enters during its travel with the rotary turret I 36.

The upper arm I is provided with presser heads I6I carried by stems I82 which are slidably mounted in suitable sockets in the ends of the arm I65. Springs IBZd are provided around said stems and between the heads I8 I and the ends of the arm I65 to normally urge said presser heads outwardly. Such movement is, however, limited by means of cross pins, such as indicated at I86, which are carried by the ends of the arm I65 and which pass through slots I84 provided in the respective stems I82. The arms I65 and. IE6 are so related that their ends mesh with each other, the presser members I6I of the upper arm being so shaped (see Fig. 1'7) as to enter the recesses I66 of the ends of the lower arm I66. The presser members are so formed that they will press the knitted tube material 1 downwardly against the valve ball I16 with sufficient force to unseat the valve ball thereby permitting a small amount of adhesive to escape from the ends of the lower arm and under the overlying knitted material 1. The duration of contact between the ends of the arm is sufliciently short and the viscosity of the adhesive material employed is such that only a drop or so of adhesive escapes; that is to say, only enough adhesive escapes to effectively wet a small bank of the tubular knitted material 1, as indicated at 6 in Fig. 18.

To permit the lower arm I66 and its tubular shaft I13 to rotate relative to the adhesive delivery pipe I16 a suitable rotary slip joint fitting I85 is employed for connecting the rotary shaft to the relatively stationary delivery pipe.

To insure proper gathering of the knitted tube material 1 and its entry into the recessed seat I86 of the lower arm I66, the upper arm I65 is provided with gathering clips I66, I66 on its ends. Said gathering clips are secured to the leading sides of the arm ends and they have their outer endspf more or less V-shaped recessed form as indicated at I61 so as to effect the desired gathering and introduction of the knit tubing 1 into the said recessed seats.

Suitable quick drying adhesive may be employed, if desired, so that the adhesive will be adequately set before the station is reached where the tubing 1 is severed to separate the tampon bodies into relatively independent units. However, we prefer to provide means for accelerating the dry-in of such adhesive and this is done in the present instance by directing a flow of warm or dry air against the adhesive bearing tube while it travels from the adhesive applying station to the cutting station. For that purpose, manifold I66 (Fig. 13) is connected by means of a suitable conduit I88 to a source of hot or dry air, and such dry air is delivered from said manifold into certain chambers I66, I66 formed in the hub member I56 of the turret structure I36 (see Figs. 12 and 13). For this purpose, the plate I45 is provided with an arcuate opening I66 which is of such length as to communicate simultaneously with three or four holes I6I in the bottom plate I32 of the turret structure. There is a hole I9I in said bottom plate for each of the chambers I89 formed in the hub casting so that during a portion of the rotation of the turret structure air will be delivered from the manifold I39 into a plurality of the chambers I89 as will be readily understood from an inspection of Fig. 12. The chambers I89 each have outlet openings I92 in their outer side walls and discharge or blow pipes I93 are seated in said openings I92 so as to communicate with said chambers. Said blow pipes I93 are so shaped and positioned that their discharge ends direct a flow of drying air against the adhesive zone 8 for about one-half of the rotation of the turret. This is sufficient to dry suitably selected adhesive.

The mechanism for cutting the tube connected tampon units into separate tampons is somewhat similar to the adhesive applying mechanism except that instead of an adhesive discharge nozzle and presser element the cutting mechanism includes cutting knives or tips on one arm and cooperating anvils on the ends of the other arm. This cutting mechanism is shown in Figs. 3, and 16.

By reference to Figs. 3 and 5 it will be seen that the cutting mechanism is located substantially diametrically opposite to the adhesive applying mechanism, the cutting mechanism being mounted in another upwardly extending hollow post-like part of the frame structure. Said cutting mechanism comprises upper and lower arms I94 and I95 respectively, the same being carried by upper and lower shafts I95 and I9! which are suitably journaled in said hollow frame post.

The shafts I96 and I91 carry sprockets I98 and I99 respectively through the agency of which a chain 200 drives said cutter arms. As shown in Fig. 16, the chain is so threaded around the sprockets I98 and I99 that the cutter arms are rotated in opposite directions but in suitably synchronized relation to bring their cooperating ends into registry. The chain 200 is driven by a drive sprocket 2M on the driven shaft I48 and it is also guided by means of an idler sprocket 292 so as to maintain its operative engagement with a sufiicient number of teeth of the lower sprocket I99.

The upper cutter arm I94 has mounted on its ends suitable cutters 203, 203, the same being suitably removably mounted so as to permit replacement thereof when required. Similarly the ends of the lower arm are provided with removably mounted anvil elements 204 so that these anvil elements may be replaced when required.

Provision may be made for adjusting the anvils 294 toward and from the cutters, this means comprising in the present instance, wedge blocks 295 which are adapted to be adjusted by adjusting screws 206.

By reference to Fig. 16 it will be seen that the cutter members 203 and the anvil members 294 come together in such relationship that the knit tubing 1 will be severed as shown at 9 in Fig. 3.

Although other operations, hereinafter described, may be performed on the tampon bodies before they are cut apart, it is feasible to cut them apart as described and to eject them from the holders I29 and to deliver them into a receptacle or to a conveyor, such as represented in its entirety at 29! in Fig. 3. The conveyor 29'! may conduct the separate tampon bodies to mechanism for further treating. However, in some instances the short, leading end portions of the jackets may be suitably bound or anchored,

for example, by being tucked back into the adjacent end portion of the absorbent body.

Assuming that the tampon bodies are to be discharged from the holders I29 without further treatment after cutting of the jacket, suitable ejecting mechanism is next actuated. Such ejecting mechanism is shown in Figs. 3, 12, 13 and 21 of the drawings. It comprises an ejecting arm 208 in the bottom of each holder I29, said ejecting arm being secured to a post 209 which has its opposite ends pivotally mounted in the upper and lower plates I3I and I32 of the turret structure (see Fig. 13). Said pivot post 209 has an arm 2H) extending therefrom and said arm is connected by means of a link 2 to the free end 2 I2 of one arm of a small bell crank Said bell crank 2I3 is secured to a sleeve 2 I 4 which is rotatable on a pin 2I5 which is car- ;ried by said upper and lower turret plates. The other arm 2 I6 of said bell crank has its free end provided with. a roller 2II which engages the edge of a cam 2I8 which is mounted on a rotatable shaft or post 2 I 9-, the latter being suitably journaled in the turret plates I3I and I32.

The cam 2I8 has a hub part 220 and the cam may be pinned as indicated at 22I, to the shaft 2I9 so as to rotate therewith. The shaft projects through the lower plate I32 and has a gear or pinion 222 secured to its lower end so that rotation of the gear 222 will be imparted to the shaft 2I9 and said cam 2I8. Said pinion 222 is adapted to mesh with a gear segment. 223 which ,is' suitably secured to the bottom of the stationary valve plate I45 as best shown in Fig. 13. The gear segment 223 is so located and it is of such length as to cause the cam 2! to make one complete turn during its travel through the arc of said gear segment 223. As the cam 218 rotates it acts against the cam roller 2I'I to rock the bell crank and to thereby transmit motion through the link 2I I and arm 2III to the ejector arm 208, one of which is shown in an -open or ejecting position in Figs. 3 and 21.

A spring 224 stretched between a portion of the bell crank arm 2I3 and a. fixed pin 225 serves :to normally hold the cam following roller in engagement with the cam 2I8.

The cam 2! is held against rotation during its travelexcept when being rotated by the gear segment, by having the gear 222 provided with a hub 226 which is provided with a cut back arcuate surface portion 221 which is adapted to engage the normal periphery 228 of the valve plate I45. Said valve plate has its periphery recessed as indicated at 229 in registry with the gear segment 223 so as to permit rotation of the gear and cam during the travel of the cam opposite the gear segment 223.

In the production of one type of tampon, it is desirable to tuck one end of the tubular jacket into the end of the absorbent body. This operation may be automatically performed while the tampon bodies remain in the holders I29 on the turret. Mechanism for performing the said tucking operation is shown in Figs. 3, 12, 13, 20 to 25 of the drawin s.

The tucking mechanism comprises a pair of spreader arms 230 and 23I and a tucking finger 232. The spreader arms 23D and 23I extend approximately radially of the turret, and have their inner ends pivotally secured as indicated at 233 on a square shaft 234 which is rotatable on a pivot shaft 235. The pivot shaft 235 extends between and is secured at its ends to the turret top and bottom plates I3I and I32. 

